澳大利亞新南威爾斯大學無線通信領域博士,澳大利亞新南威爾斯大學研究員,博士生導師。
陳景煜博士是高性能微波和毫米波器件晶片以及射頻微機電系統晶片(RF MEMS)領域世界級科學家之一。他通過將液態金屬與3D列印技術相結合,率先製造了高性能微波器件 ,並開發了具有極端雜散抑制功能的5G毫米波濾波器,並與加拿大及義大利世界級知名研究人員有著牢固的國際合作。
陳景煜博士發表了30餘篇SCIE索引期刊、30餘篇同行評審的國際會議論文、一份美國專利申請、四份澳大利亞臨時專利申請,並曾獲得兩項國際最佳論文獎和一項澳大利亞研究獎。陳景煜博士長期擔任澳大利亞研究委員會發現項目和澳大利亞國家衛生和醫學研究委員會項目首席研究員,並同時擔任十餘家世界頂級科學出版物審稿人。
(概述圖來源:)
基本介紹
- 中文名:陳景煜
- 畢業院校:新南威爾斯大學
- 職稱:研究員
- 所獲榮譽:新南威爾斯大學博士後寫作獎學金
人物經歷,科研成果,所獲榮譽,學術成果,
人物經歷
教育經歷
2001年-2004年,新南威爾斯大學電氣工程學院,攻讀工學學士;
2004年-2006年,新南威爾斯大學電氣工程學院,攻讀工學碩士;
2006年-2011年,新南威爾斯大學電氣工程學院,攻讀工學博士;
2007年-2009年,在加拿大滑鐵盧大學綜合射頻工程中心(CIRFE)交換計畫攻讀博士學位;
2011年-2013年,在澳大利亞聯邦科學與工業研究組織(CSIRO)擔任博士後研究員;
工作經歷
2007年-2009年,在加拿大滑鐵盧大學綜合射頻工程中心(CIRFE)擔任研究助理;
2011年-2013年,加入澳大利亞聯邦科學與工業研究組織(CSIRO)擔任博士後研究員;
2014年-,加入新南威爾斯大學電氣工程與電信學院研究員、博士生導師;
科研成果
成功開發了各種用於無線通信的新型RF、微波和毫米波可重構電路,如RF MEMS開關、開關矩陣、移相器、微波濾波器、天線、耦合器和微波單片微波電路(MMIC);
成功開發了套用於微波、毫米波和太赫茲電路的新型電氣、機械和電磁模型;
在全球不同的晶片製造研發中心(包括新南威爾斯大學、西澳大利亞大學、墨爾本納米製造中心、加拿大滑鐵盧大學及美國安立微波技術中心),參與建立製造RF MEMS 工藝的研究和套用;
成功開發了用於微波和毫米波電路的新型定製微加工技術和3D列印技術,並推出了世界上第一個使用3D列印技術和液態金屬的高性能微波過濾器,並將該技術套用於包括柔性基材和新型MMIC封裝技術。
在澳大利亞成功啟動了第一個使用毫米波的皮膚狀況研究項目,並成功啟動了當前和未來電信系統相關的比吸收率(SAR)研究。
所獲榮譽
IEEE國際微波研討會(IMS)(2008), 最佳學生論文獎;
IEEE地中海微波研討會(MMS)(2009), 最佳學生論文獎;
澳大利亞研究生研究獎學金(2006 – 2011), 獎學金;
2010年無線電科學套用工作坊, 最佳學生獎;
新南威爾斯大學博士後寫作獎學金;
學術成果
(一)核心期刊發文
1. S.Huang, K. Y. Chan, R. Ramer, “All 3DPrinted Antennas Based on Phase Velocity Control for Beam-steering and SizeReduction with Low-Cost”, IEEE Transactions on Antennas and Propagation, Oct,2021, 10.1109/TAP.2021.3118777. (通訊作者)
2. Y. Fu,L. Gong, K. Y. Chan, S. Huang, J. A.Nanzer, R. Ramer, “Design of a Compact Omnidirectional Leaky-Wave Antenna Fedby Higher-Order Mode”, IEEE Transactions on Antennas and Propagation, Sep,2021, 10.1109/TAP.2021.3113758. (通訊作者)
3. S.Huang, K. Y. Chan, Y. Wang, R.Ramer, “High Gain SIW H-Plane Horn Antenna with 3D Printed Parasitic E-PlaneHorn”, Electronics Oct, 2021, https://doi.org/10.3390/electronics10192391. (通訊作者)
4. S.Huang, K. Y. Chan, Y. Fu, R. Ramer,“Dielectric-loaded substrate integrated waveguide H-plane horn antenna withembedded air cavity”, IET Microwave, Antennas and Propagation, Jan, 2021. . (通訊作者)
5. S.Huang, K. Y. Chan, R. Ramer,“Dielectric-Loaded SIW H-Plane Horn Antenna with Gradient Air Slots”, IEEEAntenna and Wireless Propagation Letters, vol. 20, pp. 43-47, 2021. . (通訊作者)
6. Y. Fu,L. Gong, K. Y. Chan, R. Ramer,“Wideband Transition from Substrate Integrated Waveguide to RectangularWaveguide in K-band by Width Profiling”, IET Microwave, Antennas andPropagation, Jun, 2020 doi: 10.1049/iet-map.2019.0801 . (通訊作者)
7. K. Y. Chan, R. Ramer, R. Mansour, R. Sorrentino, “HarmonicSuppression Characterization of Loaded Resonators for LTCC SIW Filters”, IEEETransactions on Industrial Electronics, Apr, 2020, 10.1109/TIE.2020.2987278.
8. L. Gong,Y. Fu, K. Y. Chan, J. A. Nanzer, R.Ramer, “An SIW Horn Antenna Fed by a Coupled Mode Emulating Pyramidal HornAntennas”, IEEE Transactions on Antennas and Propagation, Aug, 2019,10.1109/TAP.2019.2935133. . (通訊作者)
9. X. Li, K. Y. Chan, R. Ramer, “E-Band RF MEMSDifferential Reflection-Type Phase Shifter”, IEEE Transactions on MicrowaveTheory and Techniques, Nov, 2019, 10.1109/TMTT.2019.2944623 . (通訊作者)
10. K.Y. Chan, R. Ramer, R. R.Mansour, “Ku -Band Channel Aggregation Waveguide Filters by RF MEMS-BasedDetuning”, IEEE Transactions on Microwave Theory and Techniques, Nov. 2019,10.1109/TMTT.2019.2950241.Y. Fu, K. Y.Chan, L. Gong, R. Ramer, “SIW Planar Balun with Enlarged Bandwidth”, IETMicrowave, Antennas and Propagation, Jan, 2020. . (通訊作者)
11. K.Y. Chan, R. Ramer, “NovelConcept of Detecting BCC in Skin Tissue Using Continuous Wave Millimeter-waveRectangular Glass Filled Probe”, Medical Devices: Evidence and Research, vol.11, pp. 275-285, 2018.
12. K.Y. Chan, R. Ramer, R.Sorrentino, “Low-cost Ku-band Waveguide Devices Using 3D Printing and LiquidMetal Filling”, IEEE Transactions on Microwave Theory and Techniques, vol 66,pp. 3993-4001, 2018.
13. X. Li, K.Y. Chan, R. Ramer, “Fabrication of Through Via Holes In Ultra-Thin FusedSilica Wafers For Microwave And Millimeter-Wave Applications”, Micromachines,vol. 9(3), pp. 138, 2018, doi: 10.3390/mi9030138.
14. L. Gong, K.Y. Chan, R. Ramer, “A Third-Order Bandpass Iris Filter with ReconfigurableDielectric Irises”, Microwave and Optical Technology Letters, vol. 60(5), pp.1287-1290, 2018.
15. L. Gong, K.Y. Chan, R. Ramer, “Phase Correction of The Electric Field for A DielectricLoaded Substrate Integrated Waveguide (SIW) H-Plane Horn Antenna”, Microwaveand Optical Technology Letters, vol. 59, pp. 584-588, 2017.
16. K.Y. Chan, R. R. Mansour, R.Ramer, “A Switchable Iris Bandpass Filter Using RF MEMS Switchable planarResonators”, IEEE Microwave and Wireless Components Letters, vol. 27, pp.34-36, 2017.
17. L. Gong, K.Y. Chan, R. Ramer, “Substrate Integrated Waveguide H-plane Horn Antennawith Improved Front-To-Back Ratio and Reduced Side Lobe Level”, IEEE Antennaand Wireless Propagation Letters, vol. 15, pp. 1835-1838, 2016.
18. K.Y. Chan, R. Ramer, R. R.Mansour; R. Sorrentino, “Design of Waveguide Switches Using Switchable PlanarBandstop Filters”, IEEE Microwave and Wireless Components Letters, vol. 26, pp.798-800, 2016.
19. K.Y. Chan, R. Ramer, “NovelLow Cost E-Band Lange Coupler With Vialess Load”, IET Electronics Letters, vol.51, pp. 839-841, 2015.
20. Y. Yang, K.Y. Chan, N. Nikolic, R. Ramer, “Experimental Proof for PatternReconfigurability of 60-GHz Quasi-Yagi Antenna”, Microwave and OpticalTechnology Letters, vol. 57, pp. 84- 88, 2015.
21. K.Y. Chan, R. Ramer, R. R.Mansour, Y. J. Guo, “60GHz to E-band Switchable Bandpass Filter”, IEEEMicrowave and Wireless Components Letters, vol. 24, pp. 545-547, 2014.
22. K.Y. Chan, R. Ramer, “RF MEMSMillimeter-wave Reconfigurable Bandpass Filters”, International Journal ofMicrowave and Wireless Technologies, vol. 7, pp. 671-678, 2014.
23. L. Gong, K.Y. Chan, R. Ramer, “Beam Steering Spiral Antenna Reconfigured by PINDiodes”, International Journal of Microwave and Wireless Technologies, vol. 6,pp. 619-627, 2014.
24. L. Gong, Y. Yang, K. Y. Chan, R. Ramer, “RHCP Pattern-Reconfigurable Spiral AntennaBiased with Two DC Signals”, Microwave and Optical Technology Letters, vol. 56,pp. 1636- 1640, 2014.
25. L. Gong, K.Y. Chan, Y. Yang, R. Ramer, “RF MEMS for Reconfigurable RF Front-end:Research in Australia”, Advanced Materials Research, vol. 901, pp. 105-110,2014.
26. K.Y. Chan, R. Ramer, R. R.Mansour, “Novel Miniaturized RF MEMS Staircase Switch Matrix”, IEEE Microwaveand Wireless Components Letters, vol. 22, pp. 117-119, 2012.
27. K.Y. Chan, S. Fouladi, R.Ramer, R. R. Mansour, “RF MEMS Switchable Interdigital Bandpass Filter,” IEEEMicrowave and Wireless Components Letters, vol. 22, pp. 44-46, 2012.
28. H. U. Rahman, K. Y. Chan, R. Ramer, “Cantilever Beam Designs for RF MEMSSwitches”, Journal of Micromechanics and Microengineering, vol. 20, p. 075042,2010.
29. K.Y. Chan, R. Ramer, “A NovelRF MEMS Switch with Novel Mechanical Structure Modeling”, Journal of Micromechanicsand Microengineering, vol. 20, p. 015031, 2010.
30. K.Y. Chan, M. Daneshmand, R.R. Mansour, R. Ramer, “Scalable RF MEMS Switch Matrices: Methodology andDesign,” IEEE Transactions on Microwave Theory and Techniques, vol. 57, pp. 1612-1621,Jun 2009.
(二)國際會議論文
1. K. Y.Chan, X. Li, Y. Fu, R. Ramer, “Continuous-wave Mm-waveWaveguide-based Probe for Skin Tissue Characterisation”, IEEE InternationalSemiconductor Conference, Sinaia, Romania, June 2018.
2. K. Y.Chan, X. Li, Y. Fu, R. Ramer, “Investigation of Liquid Metaland FDM 3D Printed Microwave Devices”, IEEE International SemiconductorConference, Sinaia, Romania, June 2018.
3. L. Gong, K. Y. Chan, R. Ramer, “A Four-State Iris Waveguide Bandpass FilterWith Switchable Irises”, International Microwave Symposium IMS2017, Hawaii,USA, Jun, 2017.
4. L. Gong, K. Y. Chan, R. Ramer, “A Split-Ring Structures Loaded SIW SectorialHorn Antenna”, Antennas and Propagation in Wireless Communications APWC2015,Torino, Italy, Sep 2015.
5. K. Y.Chan, R. Ramer, “Millimetre-Wave Near Field Probe for SkinDefects Detection”, Electromagnetics in Advanced Applications ICEAA2015,Torino, Italy, Sep 2015.
6. Y. Yang, K. Y. Chan, R. Ramer, “Pattern Reconfigurable Quasi-Yagi Antenna -Proof Through Computational Design”, IEEE International Workshop on AntennaTechnology iWAT2014, Sydney, Australia, Mar 2014.
7. L. Gong, K. Y. Chan, R. Ramer, “Review of RF MEMS Technologies”,International Conference on Devices and Electronics Materials ICECS2014,Coimbatore, India, Feb 2014.
8. K. Y.Chan, R. Ramer, “Switchable Waveguide Iris Filter UsingPlanar Dipoles”, International Microwave Symposium IMS2013, Seattle, WA, USA,Jun 2013.
9. K. Y.Chan, R. Ramer, Y. J. Guo. “RF MEMS Millimeter-waveSwitchable Bandpass Filter”, International Wireless Symposium IWS2013, Beijing,China, Apr 2013
10. L. Gong, K. Y. Chan, R. Ramer. “A Beam Steering Single-Arm RectangularSpiral Antenna With Large Azimuth Space Coverage”, International Wireless andMicrowave Conference WAMICON 2013, Orlando, FL, USA, Apr 2013
11. L. Gong, K. Y. Chan, R. Ramer. “A Novel Reconfigurable Spiral Antenna”,Australian Symposium on Antennas, ASA, Sydney, NSW, Australia, Feb 2013.
12. L. Gong, K. Y. Chan, R. Ramer, “A Reconfigurable Spiral Antenna with WideBeam Coverage”, IEEE Antennas and Propagation Society International Symposium(APSURSI 2013), Orlando, FL, USA, Jul 2013.
13. Y. Yang, K. Y. Chan, R. Ramer, “Comparison Of 60 GHz Quasi-Yagi AntennasUsing Different Microstrip-To-CPS Transitions,” IEEE International Conferenceon Wireless Information Technology and Systems (ICWITS), Hawaii, USA, Nov.2012.
14. K. Y.Chan, Y. Guo, “Analysis of RF MEMS Integrated Tunable HighImpedance Surface At 60 GHz”, Asian Pacific Microwave Conference, Melbourne,VIC, Australia, Dec 2011.
15. E. Siew, K. Y. Chan, Y. Cai, Y. Yang, R. Ramer, A. Dzurak, “RFMEMS-Integrated Frequency Reconfigurable Quasi-Yagi Folded Dipole Antenna”,Asian Pacific Microwave Conference, Melbourne, VIC, Australia, Dec 2011.
16. Y. Yang, Y. Cai, K. Y. Chan, R. Ramer, Y. Guo, “MEMS-Loaded Millimeter WaveFrequency Reconfigurable Quasi-Yagi Dipole Antenna”, Asian Pacific MicrowaveConference, Melbourne, VIC, Australia, Dec 2011.
17. Y. Yang, K. Y. Chan, R. Ramer, “Wideband RF Nano Switch Matrix”, IEEEAPSURSI, Spokane, WA, USA, Jul 2011.
18. Y. Yang, K. Y. Chan, R. Ramer, “Design of 600 GHz 3-bit Delay-line PhaseShifter Using RF NEMS Series Switches”, IEEE APSURSI, Spokane, WA, USA, Jul2011.
19. E. Siew, K. Y. Chan, R. Ramer, A. Dzurak, “Design of a RF NEMS SwitchMatrix”, IEEE APSURSI, Spokane, WA, USA, Jul 2011.
20. G. I. Kiani, T. S. Bird, K. Y. Chan, “MEMS Enabled FrequencySelective Surface for 60 GHz Applications”, IEEE APSURSI, Spokane, WA, USA, Jul2011.
21. K. Y.Chan, R.R. Mansour, R. Ramer, “Miniaturized RF MEMS SwitchCells for Crossbar Switch Matrices”, Asian Pacific Microwave Conference,Yokohama, Japan, Dec 2010.
22. H. Rahman, K. Y. Chan, R. Ramer, “Fabrication of RF NEMS Series Switch UsingSurface Micromachining”, IASTED International Conference on Nanotechnology andApplications, NANA 2010, Cambridge, MA, USA, Nov 2010.
23. K. Y.Chan, R. Ramer, R. R. Mansour, “Miniaturized RF MEMS SwitchMatrices” PIERS 2010, Cambridge, MA, USA, Jul, 2010.
24. K. Y.Chan, R. Ramer, “The Enabling Technology for The NextGeneration Wireless Communications: RF MEMS”, Workshop on Applications of RadioScience, Sydney, NSW, Australia, Feb 2010.
25. H. Rahman, K. Y. Chan and R. Ramer, “Investigation of Residual Stress Effectsand Modeling of Spring Constant for RF MEMS Switches”, IEEE MediterraneanMicrowave Symposium, Tangier, Morocco, Nov 2009.
26. K. Y.Chan, R. Ramer, “RF MEMS Switch with Low Stress Sensitivityand Low Actuation Voltage”, IEEE Antennas and Propagation Society InternationalSymposium, Chaleston, SC, USA, July 2009.
27. K. Y.Chan, M. Daneshmand, R.R. Mansour, R. Ramer, “Monolithic MEMST-type Switch for Redundancy Switch Matrix Applications”,The European Microwave Conference, Amsterdam, Netherlands, Oct2008.
28. K. Y.Chan, M. Daneshmand, R.R. Mansour, R. Ramer, “MonolithicCrossbar MEMS Switch Matrix”, InternationalMicrowave Symposium, Atlanta, GA, USA, June 2008.
29. K. Y.Chan, M. Daneshmand, R.R. Mansour, R. Ramer, “Novel BeamDesign for Compact RF MEMS Series Switches”, Asian Pacific MicrowaveConference, Bangkok, Thailand, Dec 2007.
30. K. Y.Chan, M. Daneshmand, R.R. Mansour, R. Ramer, “RF-MEMSSwitches with New Beam Geometries: Improvement of Yield and Lowering OfActuation Voltage”, Device and Process Technologies for Microelectronics, MEMS,Photonics, and Nanotechnology IV, SPIE, Canberra, ACT, Australia, Dec 2007.
31. K. Y.Chan, M. Daneshmand, R.R. Mansour, R. Ramer, “Novel CantileverBeam Design for RF MEMS Series Switches”, 5th Canadian Workshop on MEMS andMicrofluidics, Montreal, QC, Canada, Aug 2007.
